JP2016024311A5 - - Google Patents

Description

(1) An image display device according to the present invention is an image display device that displays images that can be observed from a plurality of preset observation areas on an image display surface, and is provided corresponding to each of the plurality of observation areas. A plurality of light generators each emitting a light beam group composed of a plurality of light beams toward the image display surface, and provided on the image display surface to reflect the plurality of light beam groups emitted from the plurality of light generators. A reflecting unit provided on the image display surface for diffusing each light beam reflected by the reflecting unit; and a control unit for controlling a plurality of light generators. The reflecting unit emits light from each light generator. The diffusing means reflects each light beam so that a plurality of observers lined up horizontally in each observation region can simultaneously observe the image displayed on the image display surface. Constant angle range Is diffused into the control unit controls the plurality of light beams generator to different images in a plurality of observation area is observed.

(2) reflecting means comprises a retroreflective material, the diffusion means may be diffused to each ray which is reflected by the retroreflective material to a certain angular range.

In the retroreflective element 1a of FIG. 6C, the diffusion layer 13 is not provided on the reflection surface 12a of the reflection layer 12, but a plate-like or sheet-like shape so as to cover the space surrounded by the reflection surface 12a. A diffusion layer 13 is provided. Also in this example, the light beam emitted from each projector 2 is reflected by the reflection surface 12a and diffused by the diffusion layer 13, and returns to the corresponding observation region 52a . However, in this example, compared to the examples of FIGS. 6A and 6B, light rays are easily diffused over a wide range. Therefore, it is necessary to accurately adjust the diffusion performance of the diffusion layer 13 and the shape of the reflection surface 12a so that the light beam returns to the corresponding observation region 52a. In this example, since one diffusion layer 13 can be used for a plurality of retroreflective elements 1a, the manufacturing can be further simplified.

( 6 ) Control System FIG. 11 is a block diagram for explaining a control system of the image display apparatus 100. As shown in FIG. 11, the image display device 100 includes a control unit 150 and a storage unit 160. The control unit 150 includes, for example, a general-purpose computer or an embedded device, and controls the plurality of projectors 2 so that different images are observed in the plurality of observation regions 52a (FIG. 2).

( 7 ) Effect In the image display apparatus 100 according to the present embodiment, the light beam group emitted from each projector 2 is reflected and diffused toward the corresponding observation region 52a by the reflection unit 1 provided on the field 51. Is done. Thereby, the image displayed on the field 51 from each observation area | region 52a can be observed.

As each constituent element in the claims, various other elements having configurations or functions described in the claims can be used.
[6] Reference form
The image display device in the reference form is an image display device that displays images that can be observed from a plurality of preset observation areas on an image display surface, and is provided corresponding to each of the plurality of observation areas. A plurality of light generators each emitting a light beam group composed of a plurality of light beams so as to face the surface, a reflecting means provided on the image display surface and reflecting the plurality of light beam groups emitted from the plurality of light beam generators; A control unit that controls a plurality of light generators, and the reflecting means emits light from each light generator so that a plurality of observers can simultaneously observe images displayed on the image display surface in each observation region. The control unit controls the plurality of light generators so that different images are observed in the plurality of observation regions.
In this image display device, a plurality of light beam groups are emitted from the plurality of light beam generators so as to go to the image display surface. A group of light beams emitted from each light beam generator is reflected toward a corresponding observation region by reflection means provided on the image display surface. As a result, an image that can be observed from each observation region is displayed on the image display surface.
In this case, the reflecting means reflects each light beam group so that a plurality of observers can simultaneously observe a common image in each observation region. Therefore, the number of light generators required is smaller than the number of observers. Moreover, it is not necessary for each observer to wear a light generator.
Further, the plurality of light generators are controlled so that different images are observed in the plurality of observation regions. Thereby, the image according to the observation area can be observed for each observation area.
As a result, it is possible to suppress the increase in cost without imposing physical burden on each observer, and to observe different images from a plurality of observation areas and to observe a common image by a plurality of observers in each observation area. Is possible.
The reflecting means may include a retroreflecting material, and the image display device may further include a diffusing means for diffusing each light beam reflected by the retroreflecting material in a certain angular range.
In this case, a group of light beams emitted from each light generator is reflected by the retroreflecting material and diffused by the diffusion means, and returns to the corresponding observation region. Thereby, with a simple configuration, a plurality of observers can observe a common image at the same time in each observation region.

Claims (6)

An image display device that displays images that can be observed from a plurality of preset observation areas on an image display surface,
A plurality of light generators respectively provided corresponding to the plurality of observation regions, each of which emits a light beam group composed of a plurality of light beams toward the image display surface;
Reflecting means that is provided on the image display surface and reflects a plurality of light beams emitted from the plurality of light generators;
A diffusing unit that is provided on the image display surface and diffuses each light beam reflected by the reflecting unit;
A controller for controlling the plurality of light generators,
The reflecting means reflects the light beam emitted from each light generator toward the corresponding observation region,
The diffusing means diffuses each light ray in a certain angular range so that a plurality of observers arranged horizontally in each observation region can simultaneously observe the image displayed on the image display surface,
The control unit controls the plurality of light generators so that different images are observed in the plurality of observation regions, respectively. The reflecting means includes a retroreflecting material,
The diffusion means, each light beam reflected by the retroreflective material Ru is diffused to a certain angular range, the image display apparatus according to claim 1. The image display device according to claim 2, wherein the retroreflective material includes a plurality of retroreflective elements arranged on the image display surface and each having a reflective surface. The reflecting means is
A reflecting surface that reflects a plurality of light beams emitted from the plurality of light generators;
The image display apparatus according to claim 1, further comprising: a lens that condenses a plurality of light beam groups reflected by the reflecting surface in a corresponding observation region. The image display device according to any one of claims 1 to 4, wherein the different images include a plurality of two-dimensional images corresponding to a case where common three-dimensional content is observed from the plurality of observation regions, respectively. The plurality of observation areas are set in a spectator seat of a stadium, the image display surface is a horizontal field of the stadium, and the common three-dimensional content is an object to be observed by a large number of people from the surroundings. Item 6. The image display device according to Item 5.